, 2006 and Tönisson et al , 2006) There is a definite relationsh

, 2006 and Tönisson et al., 2006). There is a definite relationship between storm surge height and the rate of dune retreat www.selleckchem.com/products/lgk-974.html (Łabuz and Kowalewska-Kalkowska, 2010, Łabuz and Kowalewska-Kalkowska, 2011 and Łabuz, 2011). The January 2012 storm surges with high water levels also caused erosion on the hitherto accumulative part of the Polish coast. The calculated changes in sand volume indicated that the greatest decrease in sediment on the dunes and beaches occurred on coastal sections with an exposure

perpendicular to the direction of the storm surges. The dune sand balance was negative owing to the considerable lowering of the beach, caused firstly by deflation (strong onshore winds of 12–16 m s−1) and secondly by abrasion. In places where the beach was lower than 2 m amsl, erosion was worse than elsewhere. An additional factor causing annual erosion was the negative sand balance on buy Venetoclax the beach caused by deflation. Low and narrow beaches did not protect dune dykes from erosion. The observed changes were very

similar to those described in other Baltic coast studies (Eberhards et al., 2006, Dailidienė et al., 2006, Suursaar et al., 2006, Tönisson et al., 2006, Chubarenko et al., 2009, Koltsova and Belakova, 2009, Sorensen et al., 2009 and Ryabchuk et al., 2011). Dune erosion reached 4 m and in some places, post-storm foredune accretion was also observed. In Poland the 2001–2009 storm surges resulted in a foredune retreat of 3–6 m, mostly on reflective beaches, i.e. where the beach was low and narrow (Łabuz, 2009, Łabuz and Kowalewska-Kalkowska, 2010 and Łabuz and Kowalewska-Kalkowska, 2011). Such coasts are widespread along the Polish coast (Zawadzka-Kahlau 2012). www.selleck.co.jp/products/AP24534.html If a beach is higher than 3.5 m amsl (covered by incipient dunes), it may be able to withstand erosion and protect inland forms from damage. In such places after a storm, marine accumulation can be observed on the beach and aeolian accumulation on the dune ridge (Łabuz 2009). Thus, storm surges bringing sediment from eroded areas can increase the area of land; however, this normally occurs along only 15% of the Polish Baltic coast (Łabuz 2013). This type of

coastal relief is called dissipative, where a high, wide beach and shallow water adjacent to it impacts on storm surge waves (Figure 8). Research into coastal dunes is gaining in importance because of the increasing levels of threats such as storm surges. Quantitative analysis of the morphological evolution of a coast plays an essential part in integrated coastal zone management. The strongest storm surges that affect the southern Baltic coast come from the north-easterly – north-westerly sector. The longer the fetch of a developing surge, the stronger the erosion of the coast. Storm surges with water levels of 1 to 1.4 m can erode beaches lower than 2.5 m amsl. On Polish coasts, water can inundate adjacent land during storm surges up to 3.5 m amsl.

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